multi-variable flow and density measurement best …product data sheet ps-00363, rev. k may 2016...
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Product Data SheetPS-00363, Rev. K
May 2016
Micro Motion® R-Series Coriolis Flow and Density MetersMulti-variable flow and density measurement
Basic liquid mass flow, volume flow, and density measurement performance in a compact design
Rugged design minimizing process, mounting, and environmental effects
Best fit-for-application
Cleanable, self-draining design for critical process control service
Compact design enables installation flexibility and reduced maintenance costs
Broad range of I/O offerings including HART, Profibus-DP, FOUNDATION fieldbus, 4-20mA and wireless capabilities
Exceptional reliability and safety
No moving parts to wear or replace minimizes maintenance for long-term reliability
316L stainless steel construction for compatibility with most fluids
Robust sensor design minimizes down time and process interruption costs
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R-Series Flow Meters May 2016
Micro Motion® R-Series flow metersMicro Motion R-Series meters are designed for general utility use across a wide range of applications where basic flow and density measurements are needed. Benefiting from the fundamental advantages of Coriolis technology the Micro Motion R-series is an ideal replacement for mechanical flow meters.
Optimal flow measurement fit for general purpose applications
Rugged measurement in a compact, drainable design that maximizes process up time
Low frequency, high sensitivity fit-and-forget meter provides robust measurements even under demanding process conditions
Multiple line sizes provide an ideal platform for batching, distribution, allocation and intra-plant measurement applications
Industry-leading capabilities that unleash your process potential
Available with an extensive offering of transmitter and mounting options for maximum compatibility with your system
State of the art, ISO-IEC 17025 compliant calibration stands achieving ±0.014% uncertainty drive best in class measurement accuracy
The most robust communication protocol offering in the industry including Smart Wireless
True multi-variable technology measures necessary flow process variables simultaneously
Widest range of installation and process condition flexibility
Featuring a low pressure drop, low weight design that reduces installation and commissioning costs
Unmatched MVD transmitter technology with digital signal processing (DSP) delivers the fastest response rates enabling accurate batch and process measurement
Table of Contents Measurement principles.................................................3Performance specifications ............................................3Operating conditions: Environmental ............................8Operating conditions: Process .......................................9
Meter approvals and certifications................................. 9Transmitter interface................................................... 11Physical specifications ................................................. 11Ordering information .................................................. 14
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May 2016 R-Series Flow Meters
Measurement principlesAs a practical application of the Coriolis effect, the Coriolis mass flow meter operating principle involves inducing a vibration of the flow tube through which the fluid passes. The vibration, though it is not completely circular, provides the rotating reference frame which gives rise to the Coriolis effect. While specific methods vary according to the design of the flow meter, sensors monitor and analyze changes in frequency, phase shift, and amplitude of the vibrating flow tubes. The changes observed represent the mass flow rate and density of the fluid.
Mass flow measurementThe measuring tubes are forced to oscillate producing a sine wave. At zero flow, the two tubes vibrate in phase with each other. When flow is introduced, the Coriolis forces cause the tubes to twist resulting in a phase shift. The time difference between the waves is measured and is directly proportional to the mass flow rate.
Temperature measurementTemperature is a measured variable that is used to compensate for temperature influences on Young’s Modulus of Elasticity.
Meter characteristics Measurement accuracy is a function of fluid mass flow rate independent of operating temperature, pressure, or composition.
However, pressure drop through the sensor is dependent upon operating temperature, pressure, and fluid composition.
Specifications and capabilities vary by model and certain models may have fewer available options. Please refer to the Online Store Sizing and Selection Tool at the Micro Motion web site (www.micromotion.com/onlinestore) for detailed information regarding performance and capabilities.
The letter at the end of the base model code (for example R100S) represents wetted part material and/or application designation: S = stainless steel and P = high pressure.
Performance specificationsReference operating conditionsFor determining the performance capabilities of our meters, the following conditions were observed/utilized:
Water at 68 to 77 °F and 14.5 to 29 psig (20 to 25 °C and 1 to 2 barg)
Accuracy based on industry leading accredited calibration stands according to ISO/IEC 17025
All models have a density range up to 5 g/cm3 (5000 kg/m3)
No flow With flow
Outlet pickoff displacement
Inlet pickoffdisplacement Inlet pickoff
displacement
Outlet pickoff displacement
Time Time Time difference
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Accuracy and repeatability on liquids and slurries
Accuracy and repeatability on gases
Performance specifications Calibration code Y Calibration code AMass flow accuracy (1) ±0.5% of rate ±0.4% of rate
Volume flow accuracy (1) ±0.5% of rate (2) ±0.4% of rate
Mass flow repeatability ±0.25% of rate ±0.2% of rate
Volume flow repeatability ±0.25% of rate ±0.2% of rate
Density accuracy ±0.01 g/cm3 (±10.0kg/m3) ±0.003 g/cm3 (±3.0kg/m3)
Density repeatability ±0.005 g/cm3 (±5.0kg/m3) ±0.0015 g/cm3 (±1.5kg/m3)
Temperature accuracy ±1 °C ±0.5% of reading
Temperature repeatability ±0.2 °C
(1) Stated flow accuracy includes the combined effects of repeatability, linearity, and hysteresis.(2) Valid at calibration conditions.
Performance specification All modelsMass flow accuracy (1) ±0.75% of rate
Mass flow repeatability (1) ±0.5% of rate
Temperature accuracy ±1 °C ±0.5% of reading
Temperature repeatability ±0.2 °C
(1) Stated flow accuracy includes the combined effects of repeatability, linearity, and hysteresis
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Liquid flow rates
Nominal flow rateMicro Motion has adopted the term nominal flow rate, which is the flow rate at which water at reference conditions causes approximately 14.5 psig (1 barg) of pressure drop across the meter.
Mass flow rates for all models: 316L stainless steel (S) and high pressure (P)
Model
Nominal line size Nominal flow rate Maximum flow rate
inch mm lb/min kg/h lb/min kg/hR025 1/4” DN6 50 1,366 100 2,720
R050 1/2” DN15 155 4,226 300 8,160
R100 1” DN25 604 16,440 1,200 32,650
R200 2” DN50 1,917 52,160 3,200 87,100
Volume flow rates for all models: 316L stainless steel (S) and high pressure (P)
Model
Nominal flow rate Maximum flow rate
gal/min barrels/h l/h gal/min barrels/h l/hR025 6 9 1,366 12 23 2,720
R050 19 27 4,226 36 69 8,160
R100 72 103 16,440 144 274 32,650
R200 230 328 52,160 384 731 87,100
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Gas flow ratesWhen selecting sensors for gas applications, pressure drop through the sensor is dependent upon operating temperature, pressure, and fluid composition. Therefore, when selecting a sensor for any particular gas application, it is highly recommended that each sensor be sized using the Online Store Sizing and Selection Tool at the Micro Motion web site (www.micromotion.com/onlinestore).
The below table indicates flow rates that produce approximately 25psig (1.7barg) pressure drop on natural gas.
Zero stabilityZero stability is used when the flow rate approaches the low end of the flow range where the meter accuracy begins to deviate from the stated accuracy rating, as depicted in the turndown section below. When operating at flow rates where meter accuracy begins to deviate from the stated accuracy rating, accuracy is governed by the formula: accuracy = (zero stability/flow rate) x 100%. Repeatability is similarly affected by low flow conditions.
Turndown capabilitiesThe graph and table below represent an example of the measurement characteristics under various flow conditions. At flow rates requiring large turndowns (greater than 20:1), the zero stability values may begin to govern capability dependent upon flow conditions and meter in use.
Gas flow rates for all models: 316L stainless steel (S) and high pressure (P)
Model
Mass Volume
lb/min kg/h SCFM Nm3/hR025 17 468 388 659
R050 52 1,429 1,183 2,010
R100 200 5,452 4,514 7,670
R200 666 18,137 15,018 25,515
Notes
• Standard (SCFM) reference conditions are 14.7 psig and 60°F. Normal reference conditions are 1.013 barg and 0°C.
Turndown from nominal flow rate 20:1 10:1 1:1Accuracy ±% 0.50 0.50 0.50
Pressure drop psig (barg) 0.1 (0.007) 0.813 (0.05) 54 (3.4)
Flow rate, % of nominal
Acc
ura
cy, %
0
0.5
1.0
1.5
2.0
2.5
0 100908070605040302010
20:1
10:1
1:1
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Process pressure ratingsSensor maximum working pressure reflects the highest possible pressure rating for a given sensor. Process connection type and environmental and process fluid temperatures may reduce the maximum rating. Refer to the Technical Data Sheet for common sensor and fitting combinations.
R-Series sensors comply with ASME B31.1 power piping code, ASME B31.3 process piping code, and Council Directive 97/23/EC of 29 May 1997 on pressure equipment.
Case pressure
Zero stability for all models: 316L stainless steel (S) and high pressure (P)
Model
Zero stability
lb/min kg/hR025 0.0061 0.165
R050 0.0180 0.492
R100 0.0750 2.046
R200 0.2398 6.540
NoteR-Series sensors with JIS process connections do not comply with ASME B31.1 power piping code.
Sensor maximum working pressure for all models: 316L stainless steel (S) and high pressure (P)
Model psig bargAll stainless steel models (R025S–R200S) 1,450 100
R025P 2,300 159
Case pressure for all models: 316L stainless steel (S) and high pressure (P)
Model Case maximum pressure (1)
(1) One time case containment pressure over a period of a maximum of 50 hours.
NAMUR NE132 Typical burst pressure
psig barg psig barg psig bargR025 166 11 1,256 87 1,884 130
R050 135 9 1,020 70 1,530 105
R100 109 7 854 59 1,281 88
R200 64 4 507 35 760 52
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Operating conditions: EnvironmentalVibration limitsMeets IEC 68.2.6, endurance sweep, 5 to 2000 Hz, 50 sweep cycles at 1.0g.
Temperature limitsSensors can be used in the process and ambient temperature ranges shown in the temperature limit graphs. For the purposes of selecting electronics options, temperature limit graphs should be used only as a general guide. If your process conditions are close to the gray area, consult with your Micro Motion representative.
Ambient and process temperature limits for all models: 316L stainless steel (S) and high pressure (P)
Notes
• In all cases, the electronics cannot be operated where the ambient temperature is below –40°F (–40°C) or above +140°F (+60°C). If a sensor is to be used where the ambient temperature is outside of the range permissible for the electronics, the electronics must be located where the ambient temperature is within the permissible range, as indicated by the shaded areas of the temperature limit graphs.
• Temperature limits may be further restricted by hazardous area approvals. Refer to the hazardous area approvals documentation shipped with the sensor or available from the Micro Motion web site (www.micromotion.com).
• The extended-mount electronics option allows the sensor case to be insulated without covering the transmitter or core processor, but does not affect temperature ratings. When insulating the sensor case at elevated process temperatures (above 140°F), please ensure electronics are not enclosed in insulation as this may lead to electronics failure.
Tamb = Ambient temperature °F (°C)Tproc = Process temperature °F (°C)A = All available electronic optionsB= Remote mount electronics only
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Operating conditions: ProcessProcess temperature effect For mass flow measurement, process temperature effect is defined as the change in sensor flow accuracy due to process
temperature change away from the calibration temperature. Temperature effect can be corrected by zeroing at the process conditions.
Process pressure effectProcess pressure effect is defined as the change in sensor flow accuracy due to process pressure change away from the calibration pressure. This effect can be corrected by dynamic pressure input or a fixed meter factor. See installation manual for proper setup and configuration.
Meter approvals and certifications
Process temperature effect for all models: 316L stainless steel (S) and high pressure (P)
Model codeMass flow rate (% of maximum rate) per °C
Density
g/cm3 per °C kg/m3 per °CR025, R050, R100, R200 ±0.00175 ±0.0001 ±0.1
Process pressure effect for all models: 316L stainless steel (S) and high pressure (P)
Model code
Liquid or gas flow (% of rate) Density
per psig per barg g/cm3 per psig kg/m3 per bargR025, R050, R100 none none none none
R200 –0.001 –0.015 –0.00003 –0.43
Approvals and certifications
Type Approval or certification (typical)CSA and CSA C-US Ambient temperature: –40 to +140 °F (–40 to +60 °C) Class I, Div. 1, Groups C and D
Class I, Div. 2, Groups A, B, C, and D Class II, Div.1, Groups E, F, and GATEX
0575 II 2G Ex ib IIB/IIC T1–T4/T5/T6 Gb
II 2D Ex ib IIIC T(1)°C Db IP65
II 3G Ex nA IIC T1–T4/T5 Gc
II 3D Ex tc IIIC T(1) °C Dc IP66IECEx Ex ib IIB/IIC T1–T4/T5/T6 Gb
Ex nA IIC T1-T4/T5 GcNEPSI Ex ib IIB/IIC T1–T6 Gb
Ex ibD 21 T450°C-T85°C Ex nA IIC T1–T6 Gc
DIP A22 T(1) T1-T6Ingress Protection Rating IP 66/67 for sensors and transmitters
EMC effects Complies with EMC directive 2004/108/EC per EN 61326 Industrial
Complies with NAMUR NE-21 (22.08.2007)
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Note:
• Approvals shown are for R-Series meters configured with a model 1700 transmitter. Meters with integral electronics may have more restrictive approvals. Refer to the Product Data Sheet for each transmitter for details.
• When a meter is ordered with hazardous area approvals, detailed information is shipped along with the product.
• More information about hazardous approvals, including detailed specifications and temperature graphs for all meter configurations is available on the R-Series product page at the Micro Motion web site (www.micromotion.com).
Industry standards
Type StandardIndustry standards and commercial approvals
NAMUR: NE132 (burst pressure, sensor flange to flange length), NE131 Pressure Equipment Directive (PED) Canadian Registration Number (CRN) Dual Seal ASME B31.3 Piping Code SIL2 and SIL3 safety certifications
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Transmitter interfaceA Motion flowmeter system is highly customizable to provide a configuration that is tailor-fit to specific applications.
Robust transmitter offerings allow a multitude of mounting options:
Compact mounting integral to the sensor Field mount variants for harsh conditions Compact control room DIN rail packages for optimal locating
in a control cabinet
R-Series meters are available with an expansive selection of input and output connectivity options including the following:
4-20 mA HART™ WirelessHART™ EtherNet/IP FOUNDATION™ fieldbus PROFIBUS Modbus® Other protocols may be available on request
Physical specificationsMaterials of constructionGeneral corrosion guidelines do not account for cyclical stress, and therefore should not be relied upon when choosing a wetted material for a Micro Motion meter. Please refer to the Micro Motion Corrosion Guide for material compatibility information.
Wetted part materials
Model Material options Sensor weight
316L Stainless steel Nickel alloy C22 and Stainless steel lb kg
R025 R025S R025P 10 5
R050 R050S 11 5
R100 R100S 21 10
R200 R200S 42 20
Notes
• Weight specifications are based upon ASME B16.5 CL150 flange and do not include electronics.
• Heat jackets and steam kits are also available.
Non-wetted part materials
Component Enclosure rating316L stainless steel
304L stainless steel
Polyurethane-painted aluminum
Sensor housing — •Core processor housing NEMA 4X (IP66/67) • •Model 1700/2700 transmitter housing
NEMA 4X (IP66) • •
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Flanges
Sensor type Flange typesStainless steel 316L ASME B16.5 weld neck flange (up to CL600)
ASME B16.5 weld neck flange raised face (up to CL600) EN 1092-1 weld neck flange form B1, B2, D (up to PN100) JIS B2220 weld neck raised face (up to 20K) VCO, VCR swagelok compatible fitting Hygienic tri-clamp compatible
NoteFor flange compatibility, please refer to the Online Store Sizing and Selection Tool at the Micro Motion web site (www.micromotion.com/onlinestore).
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DimensionsThese dimensional drawings are intended to provide a basic guideline for sizing and planning. They are representative of a 316 stainless steel model fitted with ASME B16.5 CL150 flange, and 1700 transmitter.
Face-to-Face (Dim. A, below) dimensions for all R-series meters with each available process connection can be found in the R-series Technical Data Sheet.
Complete and detailed dimensional drawings can be found through the product link in our online store (www.micromotion.com/onlinestore).
Example dimensions for all models: 316L stainless steel (S), and high pressure (P)
Note
• All dimensions ±1/8 inch (±3 mm).
• Representative of a 316 stainless steel model fitted with ASME B16.5 CL150 flange, and 1700 transmitter
Model
Dim. A Dim. B Dim. C Dim. D
Inch mm Inch mm Inch mm Inch mmR025 16 406 8-3/8 213 5-1/8 130 2-13/16 71
R050 18-1/8 460 8-3/8 213 6-3/4 171 2-15/16 75
R100 22-11/16 576 8-5/8 219 9-1/8 232 4-1/8 105
R200 24-3/4 629 9-9/16 267 12-9/16 319 5-5/8 143
A
7-3/16(183)
B
C
D
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Ordering informationProduct code structure
Base modelCodes S and P are model designations used to identify the type of meter.
Process connections
Model Material AvailabilityP High pressureS 316L stainless steel S P
R025 1/4-inch (6 mm) S P
R050 1/2-inch (12 mm) S
R100 1-inch (25 mm) S
R200 2-inch (50 mm) S
Model R025S
Code Description113 1/2-inch CL150 ASME B16.5 F316/F316L Weld neck flange Raised face
114 1/2-inch CL300 ASME B16.5 F316/F316L Weld neck flange Raised face
115 1/2-inch CL600 ASME B16.5 F316/F316L Weld neck flange Raised face
116 DN15 PN40 DIN 2635 F316/F316L Weld neck flange Form C face
120 DN15 PN100/160 DIN 2638 F316/F316L Weld neck flange Form E face
121 1/2-inch Tri-Clamp compatible
316L Hygienic fitting
Sensor size
Sensor series Material or application
Fittings
CaseElectronics
Conduit
Approvals
Future Option 1
Calibration
Factory options
Measurem
ent application
software
Languages
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122 15mm 20K JIS B 2220 F316/316L Weld neck flange Raised face
170 DN15 PN100/160 EN 1092-1 F316/F316L Weld neck flange Type B2
172 DN25 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
176 DN15 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
178 DN15 PN100 EN 1092-1 F316/F316L Weld neck flange Type D
183 DN25 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
221 15mm 40K JIS B 2220 F316/316L Weld neck flange Raised face
222 DN15 DIN11851 316/316L Hygienic coupling
310 DN15 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
319 #8 VCO 316/316L Swagelok compatible fitting
1/2-inch NPT female adapter
Model R025P
Code Description
120 DN15 PN100/160 DIN 2638 F316/F316L Weld neck flange Form E face
170 DN15 PN100/160 EN 1092-1 F316/F316L Weld neck flange Type B2
178 DN15 PN100 EN 1092-1 F316/F316L Weld neck flange Type D
180 DN25 PN100 EN 1092-1 F316/F316L Weld neck flange Type B2
319 #8 VCO 316/316L Swagelok compatible fitting
1/2-inch NPT female adapter
Model R050S
Code Description113 1/2-inch CL150 ASME B16.5 F316/F316L Weld neck flange Raised face
114 1/2-inch CL300 ASME B16.5 F316/F316L Weld neck flange Raised face
115 1/2-inch CL600 ASME B16.5 F316/F316L Weld neck flange Raised face
116 DN15 PN40 DIN 2635 F316/F316L Weld neck flange Form C face
120 DN15 PN100/160 DIN 2638 F316/F316L Weld neck flange Form E face
122 15mm 20K JIS B 2220 F316/316L Weld neck flange Raised face
131 DN25 PN40 DIN 2635 F316/F316L Weld neck flange Form C face
Model R025S (Continued)
Code Description
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170 DN15 PN100/160 EN 1092-1 F316/F316L Weld neck flange Type B2
172 DN25 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
176 DN15 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
178 DN15 PN100 EN 1092-1 F316/F316L Weld neck flange Type D
183 DN25 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
221 15mm 40K JIS B 2220 F316/316L Weld neck flange Raised face
222 DN15 DIN11851 316/316L Hygienic coupling
239 #12 VCO 316/316L Swagelok compatible fitting
3/4-inch NPT female adapter
310 DN15 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
322 3/4-inch Tri-Clamp compatible
316L Hygienic fitting
Model R100S
Code Description128 1-inch CL150 ASME B16.5 F316/F316L Weld neck flange Raised face
129 1-inch CL300 ASME B16.5 F316/F316L Weld neck flange Raised face
130 1-inch CL600 ASME B16.5 F316/F316L Weld neck flange Raised face
131 DN25 PN40 DIN 2635 F316/F316L Weld neck flange Form C face
137 DN25 PN100/160 DIN 2638 F316/F316L Weld neck flange Form E face
138 1-inch Tri-Clamp compatible
316L Hygienic fitting
139 25mm 20K JIS B 2220 F316/F316L Weld neck flange Raised face
179 DN25 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
180 DN25 PN100 EN 1092-1 F316/F316L Weld neck flange Type B2
181 DN25 PN100 EN 1092-1 F316/F316L Weld neck flange Type D
209 2-inch CL150 ASME B16.5 F316/F316L Weld neck flange Raised face
229 25mm 40K JIS B 2220 F316/316L Weld neck flange Raised face
230 DN25 DIN11851 316/316L Hygienic coupling
311 DN25 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
Model R050S (Continued)
Code Description
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May 2016 R-Series Flow Meters
Model R200S
Code Description312 DN40 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
316 DN50 PN40 EN 1092-1 F316/F316L Weld neck flange Type D
341 1-1/2-inch CL150 ASME B16.5 F316/F316L Weld neck flange Raised face
342 1-1/2-inch CL300 ASME B16.5 F316/F316L Weld neck flange Raised face
343 1-1/2-inch CL600 ASME B16.5 F316/F316L Weld neck flange Raised face
351 1-1/2-inch Tri-Clamp compatible
316L Hygienic fitting
352 2-inch Tri-Clamp compatible
316L Hygienic fitting
353 DN40 DIN11851 316/316L Hygienic coupling
363 DN40 PN100 EN 1092-1 F316/F316L Weld neck flange Type B2
365 DN50 PN100 EN 1092-1 F316/F316L Weld neck flange Type B2
366 DN40 PN100 EN 1092-1 F316/F316L Weld neck flange Type D
367 DN50 PN100 EN 1092-1 F316/F316L Weld neck flange Type D
368 DN40 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
369 DN50 PN40 EN 1092-1 F316/F316L Weld neck flange Type B1
378 DN50 PN100 DIN 2637 F316/F316L Weld neck flange Form E face
381 DN40 PN40 DIN 2635 F316/F316L Weld neck flange Form C face
382 DN50 PN40 DIN 2635 F316/F316L Weld neck flange Type C face
385 40mm 10K JIS B 2220 F316/F316L Weld neck flange Raised face
386 50mm 10K JIS B 2220 F316/316L Weld neck flange Raised face
387 40mm 20K JIS B 2220 F316/F316L Weld neck flange Raised face
388 50mm 20K JIS B 2220 F316/316L Weld neck flange Raised face
418 2-inch CL150 ASME B16.5 F316/F316L Weld neck flange Raised face
419 2-inch CL300 ASME B16.5 F316/F316L Weld neck flange Raised face
420 2-inch CL600 ASME B16.5 F316/F316L Weld neck flange Raised face
Case options
Code Case optionN Standard case
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Electronics interface
Code Case optionQ 4-wire polyurethane-painted aluminum integral core processor for remotely mounted transmitter with MVD technologyA 4-wire stainless steel integral core processor for remotely mounted transmitter with MVD technologyV 4-wire polyurethane-painted aluminum integral core processor with extended mount for remotely mounted transmitter
with MVD technologyB 4-wire stainless steel integral core processor with extended mount for remotely mounted transmitter with MVD
technologyC Integrally mounted Model 1700 or 2700 transmitter.W (1)
(1) When electronics interface code W, D, Y, or E is ordered with approval code C, A, or Z, MVD Direct Connect™ I.S. barrier is supplied.
MVDSolo; epoxy-painted aluminum integral core processor for direct host connection (for (OEMs)D (1) MVDSolo; stainless steel integral core processor for direct host connection (for (OEMs)Y (1) MVDSolo; extended-mount epoxy-painted aluminum integral core processor (for (OEMs)E (1) MVDSolo; extended-mount stainless steel integral core processor for (OEMs)
Conduit connections Code Description AvailabilityA No glandB 1/2-inch NPT - no glandE M20 - no glandF Brass/nickel cable gland (cable diameter 0.335 to 0.394 inches [8.5 to 10 mm])G Stainless steel cable gland (cable diameter 0.335 to 0.394 inches [8.5 to 10 mm])K JIS B0202 1/2G - no glandL Japan - brass nickel cable glandM Japan - stainless steel gland M L K G F E B AAll models with electronics interface codes Q, A, V, and B M L K G F E BAll models with electronics interface code C AAll models with electronics interface codes W, D, Y, and E G F E B
Approval options Code Description AvailabilityM Micro Motion Standard (no approval)N Micro Motion Standard / PED compliantC CSA (Canada only)A CSA (US and Canada): Class I, Division 1, Groups C and DZ ATEX - Equipment Category 2 (Zone 1) / PED compliantI IECEx Zone 1P NEPSI; only available with language option M (Chinese)T TIIS - T4 Temperature Classification (Not available for quotes outside of Japan) N/CS TIIS - T3 Temperature Classification (Not available for quotes outside of Japan)J Hardware ready for TIIS approval (EPM Japan only) J S T P I Z A C N MWith electronics interface codes Q, A, V, B, and C J S T P I Z A C N MWith electronics interface codes W, D, Y, and E
P Z A C N M
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Languages
Code Language option A Danish CE requirements document and English installation manual
C Czech installation manual
D Dutch CE requirements document and English installation manual
E English installation manual
F French installation manual
G German installation manual
H Finnish CE requirements document and English installation manual
I Italian installation manual
J Japanese installation manual
M Chinese installation manual
N Norwegian CE requirements document and English installation manual
O Polish installation manual
P Portuguese installation manual
S Spanish installation manual
W Swedish CE requirements document and English installation manual
B Hungarian CE requirements document and English installation manual
K Slovak CE requirements document and English installation manual
T Estonian CE requirements document and English installation manual
U Greek CE requirements document and English installation manual
L Latvian CE requirements document and English installation manual
V Lithuanian CE requirements document and English installation manual
Y Slovenian CE requirements document and English installation manual
Calibration
Code Calibration option
Y 0.5% mass flow and 0.01 g/cm3 (10 kg/m3) density calibration
A 0.4% mass flow and 0.003 g/cm3 (3.0 kg/m3) density calibration
Future option 1
Code Calibration option
Z Future option 1
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Certificates, tests, calibrations, and servicesThese option codes can be added to the end of the model code if needed, but no code is required when none of these options is selected.
Material quality examination tests and certificatesSelect any from this group.
Radiographic testingSelect only one from this group.
Pressure testing
Measurement application software
Code Measurement application software option Z No measurement application software
Factory options Code Factory option
Z Standard product
X ETO product
NoteThere may be additional options or limitations depending on total meter configuration. Contact a sales representative before making your final selections.
Code Factory option
MC Material inspection certificate 3.1 (supplier lot traceability per EN 10204)
NC NACE certificate 2.1 (MR0175 and MR0103)
KH KHK package 3.1 — certificate package to accommodate approval in Japan. Includes:
Radiographic and tube wall examination HSB witness primary containment hydrostatic and pneumatic testing Material inspection certificateNot available with codes RI, RC, HT, MC (because they are already included)
Code Factory option
RE X-ray package 3.1 (radiographic examination certificate; weld map; radiographic inspection NDE qualification)
RT X-Ray package 3.1 (radiographic examination certificate with digital image; weld map; radiographic inspection NDE qualification)
Code Factory option
HT Hydrostatic test certificate 3.1 (wetted components only)
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May 2016 R-Series Flow Meters
Dye penetrant examinationSelect any from this group.
Weld examination
Positive material testingSelect only one from this group.
ASME B31.1 Power Piping design code certification
Special cleaning
GOST compliance
Sensor completionSelect any from this group.
Code Factory option
D1 Dye penetrant test package 3.1 (sensor only, liquid dye penetration NDE qualification):
Code Factory option
WP Weld procedure package (weld map, weld procedure specification, weld procedure qualification record, welder performance qualification)
Code Factory option
PM Positive material test certificate 3.1 (without carbon content)
PC Positive material test certificate 3.1 (including carbon content)
Code Factory option
GC B31.1 Power Piping design code certification
Code Factory option
O2 Declaration of compliance oxygen service 2.1
Code Factory option
GR Russian GOST calibration verification certificate
Code Factory option
WG Witness general
SP Special packaging
22 www.micromotion.com
R-Series Flow Meters May 2016
Country specific approvalsSelect one from the following if approval code G is selected.
Code Factory option
R1 EAC Zone 1 – Hazardous Approval (1)
(1) Only available with approval code G.
B1 INMETRO Zone 1 – Hazardous Approval (1)
R-Series Flow MetersPS-00363, Rev. K
Product Data SheetMay 2016
Emerson Process Management Emerson Process ManagementAmericas Europe/Middle East7070 Winchester Circle Central & Eastern Europe T: +41 41 7686 111Boulder, Colorado USA 80301 Dubai T: +971 4 811 8100www.MicroMotion.com Abu Dhabi T: +971 2 697 2000www.Rosemount.com France T: 0800 917 901T: +1 800 522 6277 Germany T: 0800 182 5347T: +1 (303) 527 5200 Italy T: 8008 77334F: +1 (303) 530 8459 The Netherlands T: +31 (0) 70 413 6666
Belgium T: +32 2 716 77 11Mexico T: 52 55 5809 5300 Spain T: +34 913 586 000Argentina T: 54 11 4837 7000 U.K. T: 0870 240 1978Brazil T: 55 15 3413 8000 Russia/CIS T: +7 495 981 9811Venezuela T: 58 26 1300 8100Chile T: 56 2 2928 4800
Emerson Process ManagementAsia PacificAustralia T: (61) 3 9721 0200China T: (86) 21 2892 9000India T: (91) 22 6662 0566Japan T: (81) 3 5769 6803South Korea T: (82) 2 3438 4600Singapore T: (65) 6 777 8211
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Micro Motion supplies this publication for informational purposes only. While every effort has been made to ensure accuracy, this publication is notintended to make performance claims or process recommendations. Micro Motion does not warrant, guarantee, or assume any legal liability for theaccuracy, completeness, timeliness, reliability, or usefulness of any information, product, or process described herein. We reserve the right to modify or improve the designs or specifications of our products at any time wihout notice. For actual product information and recommendations, please contact your local Micro Motion representative.